Very True ! For minimum. process cycle time (maximum throughput), the gap would be removed, and the register would only need to track the damaged bottle from the point of detection, up until the scrap gate. After that, it would not be required at any point down the line. Thanks for the insightful comment !
Also in a real world application of the Registers with a physical gap where the scrap bottle used to be may not be maintained, as it reduces process cycle time. In that case when scrap bottle is dumped, the scrap bit would be reset to a zero (0), else the fill logic would not work correctly.
A valid choice. I made this video to illustrate the use of shift regs for my students. They had not covered stack operation as of the time I made this video, so it was a good example of the action of a shift register.
Very True ! For minimum. process cycle time (maximum throughput), the gap would be removed, and the register would only need to track the damaged bottle from the point of detection, up until the scrap gate. After that, it would not be required at any point down the line.
Thanks for the insightful comment !
Excelent video. Animation makes the difference. Thanks a lot for sharing!
Wonderfull Information, Sir !!!!!!!
Sure thing, keep up the great videos.
Also in a real world application of the Registers with a physical gap where the scrap bottle used to be may not be maintained, as it reduces process cycle time. In that case when scrap bottle is dumped, the scrap bit would be reset to a zero (0), else the fill logic would not work correctly.
For this kind of applications I prefer to used ffl and ffu. Saludos
A valid choice. I made this video to illustrate the use of shift regs for my students. They had not covered stack operation as of the time I made this video, so it was a good example of the action of a shift register.
thanks sir